Blame - service/native/TrafficControllerTest.cpp - android_packages_modules_Connectivity

2022-01-19 16:04:04 +0800

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/*

Wayne Ma

2022-01-12 16:29:49 +0800

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Wayne Ma

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*

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* Licensed under the Apache License, Version 2.0 (the "License");

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* you may not use this file except in compliance with the License.

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* You may obtain a copy of the License at

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*

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* http://www.apache.org/licenses/LICENSE-2.0

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*

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* Unless required by applicable law or agreed to in writing, software

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* distributed under the License is distributed on an "AS IS" BASIS,

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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

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* See the License for the specific language governing permissions and

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* limitations under the License.

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*

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* TrafficControllerTest.cpp - unit tests for TrafficController.cpp

*/

#include <cstdint>

#include <string>

#include <vector>

#include <fcntl.h>

#include <inttypes.h>

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#include <linux/inet_diag.h>

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#include <linux/sock_diag.h>

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#include <sys/socket.h>

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#include <sys/types.h>

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#include <unistd.h>

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#include <gtest/gtest.h>

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Ken Chen

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#include <android-base/file.h>

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#include <android-base/logging.h>

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#include <android-base/stringprintf.h>

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#include <android-base/strings.h>

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#include <binder/Status.h>

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#include <netdutils/MockSyscalls.h>

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Maciej Żenczykowski

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#define BPF_MAP_MAKE_VISIBLE_FOR_TESTING

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#include "TrafficController.h"

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#include "bpf/BpfUtils.h"

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#include "NetdUpdatablePublic.h"

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using namespace android::bpf; // NOLINT(google-build-using-namespace): grandfathered

namespace android {

namespace net {

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using android::netdutils::Status;

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using base::Result;

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using netdutils::isOk;

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using netdutils::statusFromErrno;

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constexpr int TEST_MAP_SIZE = 10;

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constexpr uid_t TEST_UID = 10086;

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constexpr uid_t TEST_UID2 = 54321;

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constexpr uid_t TEST_UID3 = 98765;

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constexpr uint32_t TEST_TAG = 42;

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constexpr uint32_t TEST_COUNTERSET = 1;

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constexpr int TEST_COOKIE = 1;

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constexpr char TEST_IFNAME[] = "test0";

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constexpr int TEST_IFINDEX = 999;

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constexpr int RXPACKETS = 1;

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constexpr int RXBYTES = 100;

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constexpr int TXPACKETS = 0;

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constexpr int TXBYTES = 0;

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#define ASSERT_VALID(x) ASSERT_TRUE((x).isValid())

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#define ASSERT_INVALID(x) ASSERT_FALSE((x).isValid())

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class TrafficControllerTest : public ::testing::Test {

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protected:

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TrafficControllerTest() {}

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TrafficController mTc;

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BpfMap<uint64_t, UidTagValue> mFakeCookieTagMap;

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BpfMap<uint32_t, StatsValue> mFakeAppUidStatsMap;

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BpfMap<StatsKey, StatsValue> mFakeStatsMapA;

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BpfMap<StatsKey, StatsValue> mFakeStatsMapB; // makeTrafficControllerMapsInvalid only

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BpfMap<uint32_t, StatsValue> mFakeIfaceStatsMap; ; // makeTrafficControllerMapsInvalid only

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BpfMap<uint32_t, uint32_t> mFakeConfigurationMap;

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BpfMap<uint32_t, UidOwnerValue> mFakeUidOwnerMap;

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BpfMap<uint32_t, uint8_t> mFakeUidPermissionMap;

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BpfMap<uint32_t, uint8_t> mFakeUidCounterSetMap;

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BpfMap<uint32_t, IfaceValue> mFakeIfaceIndexNameMap;

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void SetUp() {

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std::lock_guard guard(mTc.mMutex);

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ASSERT_EQ(0, setrlimitForTest());

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mFakeCookieTagMap.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeCookieTagMap);

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mFakeAppUidStatsMap.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeAppUidStatsMap);

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mFakeStatsMapA.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeStatsMapA);

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mFakeConfigurationMap.resetMap(BPF_MAP_TYPE_ARRAY, CONFIGURATION_MAP_SIZE);

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ASSERT_VALID(mFakeConfigurationMap);

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mFakeUidOwnerMap.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeUidOwnerMap);

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mFakeUidPermissionMap.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeUidPermissionMap);

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mFakeUidCounterSetMap.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeUidCounterSetMap);

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mFakeIfaceIndexNameMap.resetMap(BPF_MAP_TYPE_HASH, TEST_MAP_SIZE);

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ASSERT_VALID(mFakeIfaceIndexNameMap);

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mTc.mCookieTagMap = mFakeCookieTagMap;

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ASSERT_VALID(mTc.mCookieTagMap);

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mTc.mAppUidStatsMap = mFakeAppUidStatsMap;

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ASSERT_VALID(mTc.mAppUidStatsMap);

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mTc.mStatsMapA = mFakeStatsMapA;

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ASSERT_VALID(mTc.mStatsMapA);

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mTc.mConfigurationMap = mFakeConfigurationMap;

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ASSERT_VALID(mTc.mConfigurationMap);

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// Always write to stats map A by default.

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static_assert(SELECT_MAP_A == 0);

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mTc.mUidOwnerMap = mFakeUidOwnerMap;

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ASSERT_VALID(mTc.mUidOwnerMap);

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mTc.mUidPermissionMap = mFakeUidPermissionMap;

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ASSERT_VALID(mTc.mUidPermissionMap);

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mTc.mPrivilegedUser.clear();

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mTc.mUidCounterSetMap = mFakeUidCounterSetMap;

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ASSERT_VALID(mTc.mUidCounterSetMap);

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mTc.mIfaceIndexNameMap = mFakeIfaceIndexNameMap;

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ASSERT_VALID(mTc.mIfaceIndexNameMap);

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}

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void populateFakeStats(uint64_t cookie, uint32_t uid, uint32_t tag, StatsKey* key) {

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UidTagValue cookieMapkey = {.uid = (uint32_t)uid, .tag = tag};

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EXPECT_RESULT_OK(mFakeCookieTagMap.writeValue(cookie, cookieMapkey, BPF_ANY));

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*key = {.uid = uid, .tag = tag, .counterSet = TEST_COUNTERSET, .ifaceIndex = TEST_IFINDEX};

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StatsValue statsMapValue = {.rxPackets = RXPACKETS, .rxBytes = RXBYTES,

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.txPackets = TXPACKETS, .txBytes = TXBYTES};

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EXPECT_RESULT_OK(mFakeStatsMapA.writeValue(*key, statsMapValue, BPF_ANY));

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EXPECT_RESULT_OK(mFakeAppUidStatsMap.writeValue(uid, statsMapValue, BPF_ANY));

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// put tag information back to statsKey

key->tag = tag;

}

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void populateFakeCounterSet(uint32_t uid, uint32_t counterSet) {

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EXPECT_RESULT_OK(mFakeUidCounterSetMap.writeValue(uid, counterSet, BPF_ANY));

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}

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void populateFakeIfaceIndexName(const char* name, uint32_t ifaceIndex) {

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if (name == nullptr || ifaceIndex <= 0) return;

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IfaceValue iface;

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strlcpy(iface.name, name, sizeof(IfaceValue));

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EXPECT_RESULT_OK(mFakeIfaceIndexNameMap.writeValue(ifaceIndex, iface, BPF_ANY));

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}

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void checkUidOwnerRuleForChain(ChildChain chain, UidOwnerMatchType match) {

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uint32_t uid = TEST_UID;

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EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, DENY, DENYLIST));

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Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_RESULT_OK(value);

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EXPECT_TRUE(value.value().rule & match);

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uid = TEST_UID2;

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EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, ALLOW, ALLOWLIST));

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value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_RESULT_OK(value);

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EXPECT_TRUE(value.value().rule & match);

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EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, DENY, ALLOWLIST));

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value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_FALSE(value.ok());

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EXPECT_EQ(ENOENT, value.error().code());

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uid = TEST_UID;

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EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, ALLOW, DENYLIST));

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value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_FALSE(value.ok());

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EXPECT_EQ(ENOENT, value.error().code());

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uid = TEST_UID3;

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EXPECT_EQ(-ENOENT, mTc.changeUidOwnerRule(chain, uid, ALLOW, DENYLIST));

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value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_FALSE(value.ok());

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EXPECT_EQ(ENOENT, value.error().code());

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}

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void checkEachUidValue(const std::vector<int32_t>& uids, UidOwnerMatchType match) {

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for (uint32_t uid : uids) {

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Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_RESULT_OK(value);

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EXPECT_TRUE(value.value().rule & match);

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}

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std::set<uint32_t> uidSet(uids.begin(), uids.end());

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const auto checkNoOtherUid = [&uidSet](const int32_t& key,

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const BpfMap<uint32_t, UidOwnerValue>&) {

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EXPECT_NE(uidSet.end(), uidSet.find(key));

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return Result<void>();

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};

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EXPECT_RESULT_OK(mFakeUidOwnerMap.iterate(checkNoOtherUid));

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}

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void checkUidMapReplace(const std::string& name, const std::vector<int32_t>& uids,

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UidOwnerMatchType match) {

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bool isAllowlist = true;

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EXPECT_EQ(0, mTc.replaceUidOwnerMap(name, isAllowlist, uids));

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checkEachUidValue(uids, match);

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isAllowlist = false;

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EXPECT_EQ(0, mTc.replaceUidOwnerMap(name, isAllowlist, uids));

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checkEachUidValue(uids, match);

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}

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void expectUidOwnerMapValues(const std::vector<uint32_t>& appUids, uint32_t expectedRule,

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uint32_t expectedIif) {

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for (uint32_t uid : appUids) {

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Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);

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EXPECT_RESULT_OK(value);

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EXPECT_EQ(expectedRule, value.value().rule)

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<< "Expected rule for UID " << uid << " to be " << expectedRule << ", but was "

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<< value.value().rule;

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EXPECT_EQ(expectedIif, value.value().iif)

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<< "Expected iif for UID " << uid << " to be " << expectedIif << ", but was "

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<< value.value().iif;

}

}

template <class Key, class Value>

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void expectMapEmpty(BpfMap<Key, Value>& map) {

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auto isEmpty = map.isEmpty();

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EXPECT_RESULT_OK(isEmpty);

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EXPECT_TRUE(isEmpty.value());

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}

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void expectUidPermissionMapValues(const std::vector<uid_t>& appUids, uint8_t expectedValue) {

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for (uid_t uid : appUids) {

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Result<uint8_t> value = mFakeUidPermissionMap.readValue(uid);

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EXPECT_RESULT_OK(value);

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EXPECT_EQ(expectedValue, value.value())

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<< "Expected value for UID " << uid << " to be " << expectedValue

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<< ", but was " << value.value();

}

}

void expectPrivilegedUserSet(const std::vector<uid_t>& appUids) {

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std::lock_guard guard(mTc.mMutex);

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EXPECT_EQ(appUids.size(), mTc.mPrivilegedUser.size());

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for (uid_t uid : appUids) {

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EXPECT_NE(mTc.mPrivilegedUser.end(), mTc.mPrivilegedUser.find(uid));

}

}

void expectPrivilegedUserSetEmpty() {

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std::lock_guard guard(mTc.mMutex);

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EXPECT_TRUE(mTc.mPrivilegedUser.empty());

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}

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Status updateUidOwnerMaps(const std::vector<uint32_t>& appUids,

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UidOwnerMatchType matchType, TrafficController::IptOp op) {

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Status ret(0);

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for (auto uid : appUids) {

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ret = mTc.updateUidOwnerMap(uid, matchType, op);

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if(!isOk(ret)) break;

}

return ret;

}

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Status dump(bool verbose, std::vector<std::string>& outputLines) {

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if (!outputLines.empty()) return statusFromErrno(EUCLEAN, "Output buffer is not empty");

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android::base::unique_fd localFd, remoteFd;

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if (!Pipe(&localFd, &remoteFd)) return statusFromErrno(errno, "Failed on pipe");

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// dump() blocks until another thread has consumed all its output.

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std::thread dumpThread =

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std::thread([this, remoteFd{std::move(remoteFd)}, verbose]() {

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mTc.dump(remoteFd, verbose);

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});

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std::string dumpContent;

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if (!android::base::ReadFdToString(localFd.get(), &dumpContent)) {

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return statusFromErrno(errno, "Failed to read dump results from fd");

}

dumpThread.join();

std::stringstream dumpStream(std::move(dumpContent));

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std::string line;

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while (std::getline(dumpStream, line)) {

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outputLines.push_back(line);

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}

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return netdutils::status::ok;

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}

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// Strings in the |expect| must exist in dump results in order. But no need to be consecutive.

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bool expectDumpsysContains(std::vector<std::string>& expect) {

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if (expect.empty()) return false;

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std::vector<std::string> output;

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Status result = dump(true, output);

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if (!isOk(result)) {

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GTEST_LOG_(ERROR) << "TrafficController dump failed: " << netdutils::toString(result);

return false;

}

int matched = 0;

auto it = expect.begin();

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for (const auto& line : output) {

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if (it == expect.end()) break;

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if (std::string::npos != line.find(*it)) {

matched++;

++it;

}

}

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if (matched != expect.size()) {

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// dump results for debugging

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for (const auto& o : output) LOG(INFO) << "output: " << o;

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for (const auto& e : expect) LOG(INFO) << "expect: " << e;

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return false;

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}

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return true;

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}

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// Once called, the maps of TrafficController can't recover to valid maps which initialized

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// in SetUp().

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void makeTrafficControllerMapsInvalid() {

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constexpr char INVALID_PATH[] = "invalid";

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mFakeCookieTagMap.init(INVALID_PATH);

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mTc.mCookieTagMap = mFakeCookieTagMap;

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ASSERT_INVALID(mTc.mCookieTagMap);

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mFakeAppUidStatsMap.init(INVALID_PATH);

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mTc.mAppUidStatsMap = mFakeAppUidStatsMap;

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ASSERT_INVALID(mTc.mAppUidStatsMap);

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mFakeStatsMapA.init(INVALID_PATH);

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mTc.mStatsMapA = mFakeStatsMapA;

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ASSERT_INVALID(mTc.mStatsMapA);

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mFakeStatsMapB.init(INVALID_PATH);

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mTc.mStatsMapB = mFakeStatsMapB;

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ASSERT_INVALID(mTc.mStatsMapB);

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mFakeIfaceStatsMap.init(INVALID_PATH);

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mTc.mIfaceStatsMap = mFakeIfaceStatsMap;

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ASSERT_INVALID(mTc.mIfaceStatsMap);

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mFakeConfigurationMap.init(INVALID_PATH);

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mTc.mConfigurationMap = mFakeConfigurationMap;

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ASSERT_INVALID(mTc.mConfigurationMap);

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mFakeUidOwnerMap.init(INVALID_PATH);

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mTc.mUidOwnerMap = mFakeUidOwnerMap;

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ASSERT_INVALID(mTc.mUidOwnerMap);

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mFakeUidPermissionMap.init(INVALID_PATH);

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mTc.mUidPermissionMap = mFakeUidPermissionMap;

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ASSERT_INVALID(mTc.mUidPermissionMap);

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mFakeUidCounterSetMap.init(INVALID_PATH);

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mTc.mUidCounterSetMap = mFakeUidCounterSetMap;

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ASSERT_INVALID(mTc.mUidCounterSetMap);

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mFakeIfaceIndexNameMap.init(INVALID_PATH);

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mTc.mIfaceIndexNameMap = mFakeIfaceIndexNameMap;

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ASSERT_INVALID(mTc.mIfaceIndexNameMap);

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}

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};

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TEST_F(TrafficControllerTest, TestUpdateOwnerMapEntry) {

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uint32_t uid = TEST_UID;

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ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(STANDBY_MATCH, uid, DENY, DENYLIST)));

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Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);

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ASSERT_RESULT_OK(value);

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ASSERT_TRUE(value.value().rule & STANDBY_MATCH);

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ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(DOZABLE_MATCH, uid, ALLOW, ALLOWLIST)));

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value = mFakeUidOwnerMap.readValue(uid);

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ASSERT_RESULT_OK(value);

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ASSERT_TRUE(value.value().rule & DOZABLE_MATCH);

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ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(DOZABLE_MATCH, uid, DENY, ALLOWLIST)));

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value = mFakeUidOwnerMap.readValue(uid);

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ASSERT_RESULT_OK(value);

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ASSERT_FALSE(value.value().rule & DOZABLE_MATCH);

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ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(STANDBY_MATCH, uid, ALLOW, DENYLIST)));

397

ASSERT_FALSE(mFakeUidOwnerMap.readValue(uid).ok());

398

399

uid = TEST_UID2;

400

ASSERT_FALSE(isOk(mTc.updateOwnerMapEntry(STANDBY_MATCH, uid, ALLOW, DENYLIST)));

401

ASSERT_FALSE(mFakeUidOwnerMap.readValue(uid).ok());

402

}

403

404

TEST_F(TrafficControllerTest, TestChangeUidOwnerRule) {

405

checkUidOwnerRuleForChain(DOZABLE, DOZABLE_MATCH);

406

checkUidOwnerRuleForChain(STANDBY, STANDBY_MATCH);

407

checkUidOwnerRuleForChain(POWERSAVE, POWERSAVE_MATCH);

408

checkUidOwnerRuleForChain(RESTRICTED, RESTRICTED_MATCH);

Robert Horvath

d945bf0

2022-01-27 19:55:16 +0100

[diff] [blame]

409

checkUidOwnerRuleForChain(LOW_POWER_STANDBY, LOW_POWER_STANDBY_MATCH);

Motomu Utsumi

d980149

2022-06-01 13:57:27 +0000

[diff] [blame]

410

checkUidOwnerRuleForChain(OEM_DENY_1, OEM_DENY_1_MATCH);

411

checkUidOwnerRuleForChain(OEM_DENY_2, OEM_DENY_2_MATCH);

Motomu Utsumi

1d9054b

2022-06-06 07:44:05 +0000

[diff] [blame]

412

checkUidOwnerRuleForChain(OEM_DENY_3, OEM_DENY_3_MATCH);

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

413

ASSERT_EQ(-EINVAL, mTc.changeUidOwnerRule(NONE, TEST_UID, ALLOW, ALLOWLIST));

414

ASSERT_EQ(-EINVAL, mTc.changeUidOwnerRule(INVALID_CHAIN, TEST_UID, ALLOW, ALLOWLIST));

415

}

416

417

TEST_F(TrafficControllerTest, TestReplaceUidOwnerMap) {

418

std::vector<int32_t> uids = {TEST_UID, TEST_UID2, TEST_UID3};

419

checkUidMapReplace("fw_dozable", uids, DOZABLE_MATCH);

420

checkUidMapReplace("fw_standby", uids, STANDBY_MATCH);

421

checkUidMapReplace("fw_powersave", uids, POWERSAVE_MATCH);

422

checkUidMapReplace("fw_restricted", uids, RESTRICTED_MATCH);

Robert Horvath

d945bf0

2022-01-27 19:55:16 +0100

[diff] [blame]

423

checkUidMapReplace("fw_low_power_standby", uids, LOW_POWER_STANDBY_MATCH);

Motomu Utsumi

d980149

2022-06-01 13:57:27 +0000

[diff] [blame]

424

checkUidMapReplace("fw_oem_deny_1", uids, OEM_DENY_1_MATCH);

425

checkUidMapReplace("fw_oem_deny_2", uids, OEM_DENY_2_MATCH);

Motomu Utsumi

1d9054b

2022-06-06 07:44:05 +0000

[diff] [blame]

426

checkUidMapReplace("fw_oem_deny_3", uids, OEM_DENY_3_MATCH);

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

427

ASSERT_EQ(-EINVAL, mTc.replaceUidOwnerMap("unknow", true, uids));

428

}

429

430

TEST_F(TrafficControllerTest, TestReplaceSameChain) {

431

std::vector<int32_t> uids = {TEST_UID, TEST_UID2, TEST_UID3};

432

checkUidMapReplace("fw_dozable", uids, DOZABLE_MATCH);

433

std::vector<int32_t> newUids = {TEST_UID2, TEST_UID3};

434

checkUidMapReplace("fw_dozable", newUids, DOZABLE_MATCH);

435

}

436

437

TEST_F(TrafficControllerTest, TestDenylistUidMatch) {

438

std::vector<uint32_t> appUids = {1000, 1001, 10012};

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

439

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, PENALTY_BOX_MATCH,

440

TrafficController::IptOpInsert)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

441

expectUidOwnerMapValues(appUids, PENALTY_BOX_MATCH, 0);

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

442

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, PENALTY_BOX_MATCH,

443

TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

444

expectMapEmpty(mFakeUidOwnerMap);

445

}

446

447

TEST_F(TrafficControllerTest, TestAllowlistUidMatch) {

448

std::vector<uint32_t> appUids = {1000, 1001, 10012};

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

449

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpInsert)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

450

expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH, 0);

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

451

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

452

expectMapEmpty(mFakeUidOwnerMap);

453

}

454

455

TEST_F(TrafficControllerTest, TestReplaceMatchUid) {

456

std::vector<uint32_t> appUids = {1000, 1001, 10012};

457

// Add appUids to the denylist and expect that their values are all PENALTY_BOX_MATCH.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

458

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, PENALTY_BOX_MATCH,

459

TrafficController::IptOpInsert)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

460

expectUidOwnerMapValues(appUids, PENALTY_BOX_MATCH, 0);

461

462

// Add the same UIDs to the allowlist and expect that we get PENALTY_BOX_MATCH |

463

// HAPPY_BOX_MATCH.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

464

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpInsert)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

465

expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH | PENALTY_BOX_MATCH, 0);

466

467

// Remove the same UIDs from the allowlist and check the PENALTY_BOX_MATCH is still there.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

468

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

469

expectUidOwnerMapValues(appUids, PENALTY_BOX_MATCH, 0);

470

471

// Remove the same UIDs from the denylist and check the map is empty.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

472

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, PENALTY_BOX_MATCH,

473

TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

474

ASSERT_FALSE(mFakeUidOwnerMap.getFirstKey().ok());

475

}

476

477

TEST_F(TrafficControllerTest, TestDeleteWrongMatchSilentlyFails) {

478

std::vector<uint32_t> appUids = {1000, 1001, 10012};

479

// If the uid does not exist in the map, trying to delete a rule about it will fail.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

480

ASSERT_FALSE(isOk(updateUidOwnerMaps(appUids, HAPPY_BOX_MATCH,

481

TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

482

expectMapEmpty(mFakeUidOwnerMap);

483

484

// Add denylist rules for appUids.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

485

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, HAPPY_BOX_MATCH,

486

TrafficController::IptOpInsert)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

487

expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH, 0);

488

489

// Delete (non-existent) denylist rules for appUids, and check that this silently does

490

// nothing if the uid is in the map but does not have denylist match. This is required because

491

// NetworkManagementService will try to remove a uid from denylist after adding it to the

492

// allowlist and if the remove fails it will not update the uid status.

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

493

ASSERT_TRUE(isOk(updateUidOwnerMaps(appUids, PENALTY_BOX_MATCH,

494

TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

495

expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH, 0);

496

}

497

498

TEST_F(TrafficControllerTest, TestAddUidInterfaceFilteringRules) {

499

int iif0 = 15;

500

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif0, {1000, 1001})));

501

expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif0);

502

503

// Add some non-overlapping new uids. They should coexist with existing rules

504

int iif1 = 16;

505

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {2000, 2001})));

506

expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif0);

507

expectUidOwnerMapValues({2000, 2001}, IIF_MATCH, iif1);

508

509

// Overwrite some existing uids

510

int iif2 = 17;

511

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif2, {1000, 2000})));

512

expectUidOwnerMapValues({1001}, IIF_MATCH, iif0);

513

expectUidOwnerMapValues({2001}, IIF_MATCH, iif1);

514

expectUidOwnerMapValues({1000, 2000}, IIF_MATCH, iif2);

515

}

516

517

TEST_F(TrafficControllerTest, TestRemoveUidInterfaceFilteringRules) {

518

int iif0 = 15;

519

int iif1 = 16;

520

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif0, {1000, 1001})));

521

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {2000, 2001})));

522

expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif0);

523

expectUidOwnerMapValues({2000, 2001}, IIF_MATCH, iif1);

524

525

// Rmove some uids

526

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1001, 2001})));

527

expectUidOwnerMapValues({1000}, IIF_MATCH, iif0);

528

expectUidOwnerMapValues({2000}, IIF_MATCH, iif1);

529

checkEachUidValue({1000, 2000}, IIF_MATCH); // Make sure there are only two uids remaining

530

531

// Remove non-existent uids shouldn't fail

532

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({2000, 3000})));

533

expectUidOwnerMapValues({1000}, IIF_MATCH, iif0);

534

checkEachUidValue({1000}, IIF_MATCH); // Make sure there are only one uid remaining

535

536

// Remove everything

537

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1000})));

538

expectMapEmpty(mFakeUidOwnerMap);

539

}

540

Motomu Utsumi

8b42e6d

2022-05-19 06:23:40 +0000

[diff] [blame]

541

TEST_F(TrafficControllerTest, TestUpdateUidLockdownRule) {

542

// Add Lockdown rules

543

ASSERT_TRUE(isOk(mTc.updateUidLockdownRule(1000, true /* add */)));

544

ASSERT_TRUE(isOk(mTc.updateUidLockdownRule(1001, true /* add */)));

545

expectUidOwnerMapValues({1000, 1001}, LOCKDOWN_VPN_MATCH, 0);

546

547

// Remove one of Lockdown rules

548

ASSERT_TRUE(isOk(mTc.updateUidLockdownRule(1000, false /* add */)));

549

expectUidOwnerMapValues({1001}, LOCKDOWN_VPN_MATCH, 0);

550

551

// Remove remaining Lockdown rule

552

ASSERT_TRUE(isOk(mTc.updateUidLockdownRule(1001, false /* add */)));

553

expectMapEmpty(mFakeUidOwnerMap);

554

}

555

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

556

TEST_F(TrafficControllerTest, TestUidInterfaceFilteringRulesCoexistWithExistingMatches) {

557

// Set up existing PENALTY_BOX_MATCH rules

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

558

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000, 1001, 10012}, PENALTY_BOX_MATCH,

559

TrafficController::IptOpInsert)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

560

expectUidOwnerMapValues({1000, 1001, 10012}, PENALTY_BOX_MATCH, 0);

561

562

// Add some partially-overlapping uid owner rules and check result

563

int iif1 = 32;

564

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {10012, 10013, 10014})));

565

expectUidOwnerMapValues({1000, 1001}, PENALTY_BOX_MATCH, 0);

566

expectUidOwnerMapValues({10012}, PENALTY_BOX_MATCH | IIF_MATCH, iif1);

567

expectUidOwnerMapValues({10013, 10014}, IIF_MATCH, iif1);

568

569

// Removing some PENALTY_BOX_MATCH rules should not change uid interface rule

Wayne Ma

2022-01-12 16:29:49 +0800

[diff] [blame]

570

ASSERT_TRUE(isOk(updateUidOwnerMaps({1001, 10012}, PENALTY_BOX_MATCH,

571

TrafficController::IptOpDelete)));

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

572

expectUidOwnerMapValues({1000}, PENALTY_BOX_MATCH, 0);

573

expectUidOwnerMapValues({10012, 10013, 10014}, IIF_MATCH, iif1);

574

575

// Remove all uid interface rules

576

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({10012, 10013, 10014})));

577

expectUidOwnerMapValues({1000}, PENALTY_BOX_MATCH, 0);

578

// Make sure these are the only uids left

579

checkEachUidValue({1000}, PENALTY_BOX_MATCH);

580

}

581

582

TEST_F(TrafficControllerTest, TestUidInterfaceFilteringRulesCoexistWithNewMatches) {

583

int iif1 = 56;

584

// Set up existing uid interface rules

585

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {10001, 10002})));

586

expectUidOwnerMapValues({10001, 10002}, IIF_MATCH, iif1);

587

588

// Add some partially-overlapping doze rules

589

EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_dozable", true, {10002, 10003}));

590

expectUidOwnerMapValues({10001}, IIF_MATCH, iif1);

591

expectUidOwnerMapValues({10002}, DOZABLE_MATCH | IIF_MATCH, iif1);

592

expectUidOwnerMapValues({10003}, DOZABLE_MATCH, 0);

593

594

// Introduce a third rule type (powersave) on various existing UIDs

595

EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_powersave", true, {10000, 10001, 10002, 10003}));

596

expectUidOwnerMapValues({10000}, POWERSAVE_MATCH, 0);

597

expectUidOwnerMapValues({10001}, POWERSAVE_MATCH | IIF_MATCH, iif1);

598

expectUidOwnerMapValues({10002}, POWERSAVE_MATCH | DOZABLE_MATCH | IIF_MATCH, iif1);

599

expectUidOwnerMapValues({10003}, POWERSAVE_MATCH | DOZABLE_MATCH, 0);

600

601

// Remove all doze rules

602

EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_dozable", true, {}));

603

expectUidOwnerMapValues({10000}, POWERSAVE_MATCH, 0);

604

expectUidOwnerMapValues({10001}, POWERSAVE_MATCH | IIF_MATCH, iif1);

605

expectUidOwnerMapValues({10002}, POWERSAVE_MATCH | IIF_MATCH, iif1);

606

expectUidOwnerMapValues({10003}, POWERSAVE_MATCH, 0);

607

608

// Remove all powersave rules, expect ownerMap to only have uid interface rules left

609

EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_powersave", true, {}));

610

expectUidOwnerMapValues({10001, 10002}, IIF_MATCH, iif1);

611

// Make sure these are the only uids left

612

checkEachUidValue({10001, 10002}, IIF_MATCH);

613

}

614

Motomu Utsumi

b08654c

2022-05-11 05:56:26 +0000

[diff] [blame]

615

TEST_F(TrafficControllerTest, TestAddUidInterfaceFilteringRulesWithWildcard) {

616

// iif=0 is a wildcard

617

int iif = 0;

618

// Add interface rule with wildcard to uids

619

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif, {1000, 1001})));

620

expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif);

621

}

622

623

TEST_F(TrafficControllerTest, TestRemoveUidInterfaceFilteringRulesWithWildcard) {

624

// iif=0 is a wildcard

625

int iif = 0;

626

// Add interface rule with wildcard to two uids

627

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif, {1000, 1001})));

628

expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif);

629

630

// Remove interface rule from one of the uids

631

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1000})));

632

expectUidOwnerMapValues({1001}, IIF_MATCH, iif);

633

checkEachUidValue({1001}, IIF_MATCH);

634

635

// Remove interface rule from the remaining uid

636

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1001})));

637

expectMapEmpty(mFakeUidOwnerMap);

638

}

639

640

TEST_F(TrafficControllerTest, TestUidInterfaceFilteringRulesWithWildcardAndExistingMatches) {

641

// Set up existing DOZABLE_MATCH and POWERSAVE_MATCH rule

642

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000}, DOZABLE_MATCH,

643

TrafficController::IptOpInsert)));

644

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000}, POWERSAVE_MATCH,

645

TrafficController::IptOpInsert)));

646

647

// iif=0 is a wildcard

648

int iif = 0;

649

// Add interface rule with wildcard to the existing uid

650

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif, {1000})));

651

expectUidOwnerMapValues({1000}, POWERSAVE_MATCH | DOZABLE_MATCH | IIF_MATCH, iif);

652

653

// Remove interface rule with wildcard from the existing uid

654

ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1000})));

655

expectUidOwnerMapValues({1000}, POWERSAVE_MATCH | DOZABLE_MATCH, 0);

656

}

657

658

TEST_F(TrafficControllerTest, TestUidInterfaceFilteringRulesWithWildcardAndNewMatches) {

659

// iif=0 is a wildcard

660

int iif = 0;

661

// Set up existing interface rule with wildcard

662

ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif, {1000})));

663

664

// Add DOZABLE_MATCH and POWERSAVE_MATCH rule to the existing uid

665

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000}, DOZABLE_MATCH,

666

TrafficController::IptOpInsert)));

667

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000}, POWERSAVE_MATCH,

668

TrafficController::IptOpInsert)));

669

expectUidOwnerMapValues({1000}, POWERSAVE_MATCH | DOZABLE_MATCH | IIF_MATCH, iif);

670

671

// Remove DOZABLE_MATCH and POWERSAVE_MATCH rule from the existing uid

672

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000}, DOZABLE_MATCH,

673

TrafficController::IptOpDelete)));

674

ASSERT_TRUE(isOk(updateUidOwnerMaps({1000}, POWERSAVE_MATCH,

675

TrafficController::IptOpDelete)));

676

expectUidOwnerMapValues({1000}, IIF_MATCH, iif);

677

}

678

Wayne Ma

2022-01-19 16:04:04 +0800

[diff] [blame]

679

TEST_F(TrafficControllerTest, TestGrantInternetPermission) {

680

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

681

682

mTc.setPermissionForUids(INetd::PERMISSION_INTERNET, appUids);

683

expectMapEmpty(mFakeUidPermissionMap);

684

expectPrivilegedUserSetEmpty();

685

}

686

687

TEST_F(TrafficControllerTest, TestRevokeInternetPermission) {

688

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

689

690

mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);

691

expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);

692

}

693

694

TEST_F(TrafficControllerTest, TestPermissionUninstalled) {

695

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

696

697

mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);

698

expectUidPermissionMapValues(appUids, INetd::PERMISSION_UPDATE_DEVICE_STATS);

699

expectPrivilegedUserSet(appUids);

700

701

std::vector<uid_t> uidToRemove = {TEST_UID};

702

mTc.setPermissionForUids(INetd::PERMISSION_UNINSTALLED, uidToRemove);

703

704

std::vector<uid_t> uidRemain = {TEST_UID3, TEST_UID2};

705

expectUidPermissionMapValues(uidRemain, INetd::PERMISSION_UPDATE_DEVICE_STATS);

706

expectPrivilegedUserSet(uidRemain);

707

708

mTc.setPermissionForUids(INetd::PERMISSION_UNINSTALLED, uidRemain);

709

expectMapEmpty(mFakeUidPermissionMap);

710

expectPrivilegedUserSetEmpty();

711

}

712

713

TEST_F(TrafficControllerTest, TestGrantUpdateStatsPermission) {

714

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

715

716

mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);

717

expectUidPermissionMapValues(appUids, INetd::PERMISSION_UPDATE_DEVICE_STATS);

718

expectPrivilegedUserSet(appUids);

719

720

mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);

721

expectPrivilegedUserSetEmpty();

722

expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);

723

}

724

725

TEST_F(TrafficControllerTest, TestRevokeUpdateStatsPermission) {

726

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

727

728

mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);

729

expectPrivilegedUserSet(appUids);

730

731

std::vector<uid_t> uidToRemove = {TEST_UID};

732

mTc.setPermissionForUids(INetd::PERMISSION_NONE, uidToRemove);

733

734

std::vector<uid_t> uidRemain = {TEST_UID3, TEST_UID2};

735

expectPrivilegedUserSet(uidRemain);

736

737

mTc.setPermissionForUids(INetd::PERMISSION_NONE, uidRemain);

738

expectPrivilegedUserSetEmpty();

739

}

740

741

TEST_F(TrafficControllerTest, TestGrantWrongPermission) {

742

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

743

744

mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);

745

expectPrivilegedUserSetEmpty();

746

expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);

747

}

748

749

TEST_F(TrafficControllerTest, TestGrantDuplicatePermissionSlientlyFail) {

750

std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};

751

752

mTc.setPermissionForUids(INetd::PERMISSION_INTERNET, appUids);

753

expectMapEmpty(mFakeUidPermissionMap);

754

755

std::vector<uid_t> uidToAdd = {TEST_UID};

756

mTc.setPermissionForUids(INetd::PERMISSION_INTERNET, uidToAdd);

757

758

expectPrivilegedUserSetEmpty();

759

760

mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);

761

expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);

762

763

mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);

764

expectPrivilegedUserSet(appUids);

765

766

mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, uidToAdd);

767

expectPrivilegedUserSet(appUids);

768

769

mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);

770

expectPrivilegedUserSetEmpty();

771

}

772

Ken Chen

2022-06-05 11:39:38 +0800

[diff] [blame]

773

TEST_F(TrafficControllerTest, TestDumpsys) {

Ken Chen

2022-06-06 18:25:18 +0800

[diff] [blame]

774

StatsKey tagStatsMapKey;

775

populateFakeStats(TEST_COOKIE, TEST_UID, TEST_TAG, &tagStatsMapKey);

776

populateFakeCounterSet(TEST_UID3, TEST_COUNTERSET);

Ken Chen

2022-06-05 11:39:38 +0800

[diff] [blame]

777

Ken Chen

2022-06-06 18:25:18 +0800

[diff] [blame]

778

// Expect: (part of this depends on hard-code values in populateFakeStats())

779

//

780

// mCookieTagMap:

781

// cookie=1 tag=0x2a uid=10086

782

//

783

// mUidCounterSetMap:

// 98765 1

//

// mAppUidStatsMap::

// uid rxBytes rxPackets txBytes txPackets

// 10086 100 1 0 0

//

// mStatsMapA:

// ifaceIndex ifaceName tag_hex uid_int cnt_set rxBytes rxPackets txBytes txPackets

792

// 999 test0 0x2a 10086 1 100 1 0 0

Ken Chen

2022-06-05 11:39:38 +0800

[diff] [blame]

793

std::vector<std::string> expectedLines = {

Ken Chen

2022-06-06 18:25:18 +0800

[diff] [blame]

794

"mUidCounterSetMap:",

795

fmt::format("{} {}", TEST_UID3, TEST_COUNTERSET),

796

"mAppUidStatsMap::", // TODO@: fix double colon

797

"uid rxBytes rxPackets txBytes txPackets",

798

fmt::format("{} {} {} {} {}", TEST_UID, RXBYTES, RXPACKETS, TXBYTES, TXPACKETS),

799

"mStatsMapA",

800

"ifaceIndex ifaceName tag_hex uid_int cnt_set rxBytes rxPackets txBytes txPackets",

801

fmt::format("{} {} {:#x} {} {} {} {} {} {}",

802

TEST_IFINDEX, TEST_IFNAME, TEST_TAG, TEST_UID, TEST_COUNTERSET, RXBYTES,

803

RXPACKETS, TXBYTES, TXPACKETS)};

Ken Chen

2022-06-05 11:39:38 +0800

[diff] [blame]

804

Ken Chen

2022-06-06 18:25:18 +0800

[diff] [blame]

805

populateFakeIfaceIndexName(TEST_IFNAME, TEST_IFINDEX);

806

expectedLines.emplace_back("mIfaceIndexNameMap:");

807

expectedLines.emplace_back(fmt::format("ifaceIndex={} ifaceName={}",

808

TEST_IFINDEX, TEST_IFNAME));

809

810

ASSERT_TRUE(isOk(updateUidOwnerMaps({TEST_UID}, HAPPY_BOX_MATCH,

811

TrafficController::IptOpInsert)));

812

expectedLines.emplace_back("mUidOwnerMap:");

813

expectedLines.emplace_back(fmt::format("{} HAPPY_BOX_MATCH", TEST_UID));

814

815

mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, {TEST_UID2});

816

expectedLines.emplace_back("mUidPermissionMap:");

817

expectedLines.emplace_back(fmt::format("{} BPF_PERMISSION_UPDATE_DEVICE_STATS", TEST_UID2));

818

expectedLines.emplace_back("mPrivilegedUser:");

819

expectedLines.emplace_back(fmt::format("{} ALLOW_UPDATE_DEVICE_STATS", TEST_UID2));

Ken Chen

2022-06-05 11:39:38 +0800

[diff] [blame]

820

EXPECT_TRUE(expectDumpsysContains(expectedLines));

821

}

822

Hungming Chen

2022-06-09 01:32:00 +0800

[diff] [blame]

823

TEST_F(TrafficControllerTest, dumpsysInvalidMaps) {

824

makeTrafficControllerMapsInvalid();

825

Hungming Chen

56b9013

2022-06-09 11:33:43 +0800

[diff] [blame]

826

const std::string kErrIterate = "print end with error: Get firstKey map -1 failed: "

827

"Bad file descriptor";

828

const std::string kErrReadRulesConfig = "read ownerMatch configure failed with error: "

829

"Read value of map -1 failed: Bad file descriptor";

830

const std::string kErrReadStatsMapConfig = "read stats map configure failed with error: "

831

"Read value of map -1 failed: Bad file descriptor";

832

Hungming Chen

2022-06-09 01:32:00 +0800

[diff] [blame]

833

std::vector<std::string> expectedLines = {

Hungming Chen

56b9013

2022-06-09 11:33:43 +0800

[diff] [blame]

834

fmt::format("mUidCounterSetMap {}", kErrIterate),

835

fmt::format("mAppUidStatsMap {}", kErrIterate),

836

fmt::format("mStatsMapA {}", kErrIterate),

837

fmt::format("mStatsMapB {}", kErrIterate),

838

fmt::format("mIfaceIndexNameMap {}", kErrIterate),

839

fmt::format("mIfaceStatsMap {}", kErrIterate),

840

fmt::format("mConfigurationMap {}", kErrReadRulesConfig),

841

fmt::format("mConfigurationMap {}", kErrReadStatsMapConfig),

842

fmt::format("mUidOwnerMap {}", kErrIterate),

843

fmt::format("mUidPermissionMap {}", kErrIterate)};

Hungming Chen